KR20150109412A - Method of determining two-stage codebook set applicable to 4tx cross-polarized antenna configuration - Google Patents

Abstract

The present invention relates to a solution for designing a set of two-stage codebooks applicable to a 4Tx cross-polarized antenna configuration, and for determining a codebook in a multiple-input multiple-output communication system based on a designed two-stage codebook set applicable to a 4Tx cross- ≪ / RTI > The first stage codebook is related to long-term / wide-band channel information and is based on a DFT vector, the second stage codebook is related to short-term / narrow-band channel information and is based on selecting the columns of the first stage codebook and providing the inter- do.

Description

METHOD OF DETERMINING TWO-STAGE CODEBOOK SET APPLICABLE TO 4TX CROSS-POLARIZED ANTENNA CONFIGURATION < RTI ID = 0.0 >

The present invention relates to the field of wireless communication and more particularly to a two-stage codebook set applicable to a 4Tx cross-polarized antenna configuration in a Multi-Input Multi-Output (MIMO) a method for designing a two-stage codebook set, and a method for determining a codebook from a set of two-stage codebooks.

The MU-MIMO (Multi-User Multi-Input Multi-Output) system can achieve significant throughput improvement by linear beamforming precoding in the transmitter and full multi- multiplexing gain can be achieved. The accuracy of channel information acquisition has a significant impact on the gain of the MU-MIMO system in a Frequency Division Duplex (FDD) configuration.

For the MU-MIMO system, codebook feedback is a technique for realizing channel information acquisition and user scheduling. However, the applicability of codebook design and its granularity have become major challenges and bottlenecks in MU-MIMO applications in FDD systems. For example, the current Rel. 10 4Tx codebook is not suitable for a 4Tx cross-polarized antenna configuration, which limits the efficient application of MU-MIMO.

In view of the foregoing problems, the present invention provides a solution for designing a set of two-stage codebooks applicable to a cross-polarized antenna configuration. The two-stage codebook set designed by the present invention is applicable to a multiple-input multiple-output communication system in which the base station in the base station is composed of four cross-polarized transmission antennas, and generates a two-stage codebook set according to an embodiment of the present invention Here's how:

a. Generating a codebook matrix V based on a 2-antenna rank-1 DFT codebook c;

-; 및b. Determining a _first- stage codebook set W ₁ according to a codebook matrix V,

-; And

c. And determining the _two -stage codebook set W ₂ based on at least a column selection vector and inter-polarization phase information.

Advantageously step a:

Selecting two orthogonal DFT vectors from a 2-antenna rank-1 DFT codebook c to produce a codebook matrix V

이고

ego

이다.

to be.

Advantageously step a:

이고

-; 및Selecting two orthogonal DFT vectors from a 2-antenna rank-1 DFT codebook c to produce a codebook matrix I,

ego

-; And

이고,

는 범위 (0, 1)에서 양자화(quantized)됨 -Right-multiplying the left-multiplying and diagonal matrix J to the codebook matrix I to produce a codebook matrix V,

ego,

Is quantized in the range (0, 1)

.

Advantageously step a:

Selecting a set of adjacent overlapping DFT vectors from a 2-antenna rank-1 DFT codebook c to produce a codebook matrix V,

Including the

이다.

to be.

Advantageously step c:

The following equation

About Rank 1

,

,

및

And

About Rank 2

,

,

Determining a _two -stage codebook set W ₂ based on the column selection vector and the inter-polarization phase information of the _two-

은 1인 n-번째 원소를 제외하고 모든 다른 원소가 0인 2x1 선택 벡터를 나타내고,

은 코드북 행렬 V로부터 선택된 제1 열을 나타내며,

는 코드북 행렬 V로부터 선택된 제2 열을 나타낸다.

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents the second column selected from the codebook matrix V. [

Advantageously step c:

The following equation

About Rank 1

,

,

및

And

About Rank 2

,

,

Determining a second set W ₂ based on the column selection vector, the polarization-to-phase phase information, and the polarization-to-polarization amplitude information

Lt; / RTI >

은 1인 n-번째 원소를 제외하고 모든 다른 원소가 0인 2x1 선택 벡터를 나타내고,

은 코드북 행렬 V로부터 선택된 제1 열을 나타내며,

는 코드북 행렬 V로부터 선택된 제2 열을 나타내며,

는 범위 (0, 1)에서 양자화된다.

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents the second column selected from the codebook matrix V,

Is quantized in the range (0, 1).

Advantageously step c:

The following equation

About Rank 1

,

,

및

And

About Rank 2

,

,

Determining a second set W ₂ based on the column selection vector, the polarization-to-phase information, and the polarization-to-polarization amplitude information,

은 1인 n-번째 원소를 제외하고 모든 다른 원소가 0인 4x1 선택 벡터를 나타내고,

은 코드북 행렬 V로부터 선택된 제1 열을 나타내며,

는 코드북 행렬 V로부터 선택된 제2 열을 나타내며,

은 코드북 행렬 V로부터 선택된 제3 열을 나타내고,

는 코드북 행렬 V로부터 선택된 제4 열을 나타내며,

는 범위 (0, 1)에서 양자화된다.

Represents a 4x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents the second column selected from the codebook matrix V,

Represents the third column selected from the codebook matrix V,

Represents the fourth column selected from the codebook matrix V,

Is quantized in the range (0, 1).

A method for determining a codebook in a base station of a multiple-input multiple-output communication system, in an embodiment of the present invention, based on a two-stage codebook set applicable to a 4Tx cross-

i. Determining an uplink long-term and / or a wideband channel matrix according to a sounding signal from the user equipment;

ii. Selecting a first codebook from a first-stage codebook set based on a first-stage codebook set to match an uplink long-term and / or wide-band channel matrix;

iii. Sending index information of the first codebook to the user equipment;

iv. Receiving index information of a second codebook from a user equipment;

v. Selecting a second codebook from the second-stage codebook set according to index information of the second codebook; And

vi. Multiplying the first codebook with the second codebook to obtain the target codebook

Lt; / RTI >

The _first- stage codebook set W ₁ and the second-stage codebook set W ₂ are:

Generating a codebook matrix V based on the 2-antenna rank-1 DFT codebook c;

-; 및Determining a _first- stage codebook set W ₁ according to a codebook matrix V,

-; And

Determining a _second -stage codebook set W ₂ based on at least a column selection vector and inter-polarization topology information

Lt; / RTI > is provided.

Advantageously, the codebook matrix V is:

이고

-;Selecting two orthogonal DFT vectors from a 2-antenna rank-1 DFT codebook c to produce a codebook matrix V,

ego

-;

이고

임 -, 코드북 행렬 V를 생성하도록 코드북 행렬 I에 대각 행렬 J를 좌측에서 곱하거나 우측에서 곱하는 단계 -

이며,

는 범위 (0, 1)에서 양자화됨 -; 및We choose two orthogonal DFT vectors from a 2-antenna rank-1 DFT codebook c to produce a codebook matrix I,

ego

- multiplying the diagonal matrix J on the left or multiplying the diagonal matrix J on the codebook matrix I to generate a codebook matrix V,

Lt;

Is quantized in the range (0, 1); And

-Selecting a set of adjacent overlapping DFT vectors from a 2-antenna rank-1 DFT codebook c to produce a codebook matrix V,

-

Lt; / RTI >

Advantageously, the second-stage codebook set W ₂ is:

The following equation

About Rank 1

,

,

및

And

About Rank 2

,

,

은 1인 n-번째 원소를 제외하고 모든 다른 원소가 0인 2x1 선택 벡터를 나타내고,

은 코드북 행렬 V로부터 선택된 제1 열을 나타내며,

는 코드북 행렬 V로부터 선택된 제2 열을 나타냄 -;Determining a second set W ₂ based on the column select vector and the interleaved phase information of the first set W ₂ -

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from a codebook matrix V;

The following equation

About Rank 1

,

,

; 및

; And

About Rank 2

,

,

은 1인 n-번째 원소를 제외하고 모든 다른 원소가 0인 2x1 선택 벡터를 나타내고,

은 코드북 행렬 V로부터 선택된 제1 열을 나타내며,

는 코드북 행렬 V로부터 선택된 제2 열을 나타내고,

는 범위 (0, 1)에서 양자화됨 -; 및Determining a second set W ₂ based on a column selection vector, polarization-to-phase phase information and polarization-to-polarization amplitude information,

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents the second column selected from the codebook matrix V,

Is quantized in the range (0, 1); And

The following equation

About Rank 1

,

,

및

And

About Rank 2

,

,

은 1인 n-번째 원소를 제외하고 모든 다른 원소가 0인 4x1 선택 벡터를 나타내고,

은 코드북 행렬 V로부터 선택된 제1 열을 나타내며,

는 코드북 행렬 V로부터 선택된 제2 열을 나타내며,

은 코드북 행렬 V로부터 선택된 제3 열을 나타내고,

는 코드북 행렬 V로부터 선택된 제4 열을 나타내며,

는 범위 (0, 1)에서 양자화됨 -;Determining a second set W ₂ based on a column selection vector, polarization-to-phase phase information and polarization-to-polarization amplitude information,

Represents a 4x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents the second column selected from the codebook matrix V,

Represents the third column selected from the codebook matrix V,

Represents the fourth column selected from the codebook matrix V,

Is quantized in the range (0, 1);

. ≪ / RTI >

According to the above embodiment, in an embodiment of the present invention, there is provided a method of determining a codebook in a user equipment of a multiple-input multiple-

A. receiving index information of a first codebook from a base station;

B. selecting a first codebook from a first-stage codebook set according to index information of a first codebook;

C. determining a downlink short term and / or narrow channel matrix according to the reference information from the base station;

D. selecting a second codebook from the second-stage codebook set based on the first codebook to match the downlink short-term and / or narrow-band channel matrix; And

E. sending index information of the second codebook to the base station and multiplying the first codebook with the second codebook to obtain the target codebook

Lt; / RTI >

The _first- stage codebook set W ₁ and the second-stage codebook set W ₂ are

Generating a codebook matrix V based on the 2-antenna rank-1 DFT codebook c;

-; 및Determining a _first- stage codebook set W ₁ according to a codebook matrix V,

-; And

Determining a _second -stage codebook set W ₂ based on at least a column selection vector and inter-polarization topology information

, Is determined.

Advantageously, step D:

Step includes multiplying the first codebook with each codebook of the second-stage codebook set and selecting a second codebook from the second-stage codebook set based on a maximum capacity or minimum distance criterion do.

A method for determining a codebook in a user equipment of a multiple-input multiple-output communication system, in an embodiment of the present invention, based on a two-stage codebook set designed by the present invention applicable to a 4Tx cross-

I. determining a downlink long-term and / or wide-band channel matrix according to reference information from a base station;

II. Selecting a first codebook from a first-stage codebook set to match a downlink long-term and / or wide-band channel matrix;

III. Transmitting index information of a first codebook to a base station;

IV. Determining a downlink short-term and / or narrow-band channel matrix according to reference information from a base station;

Selecting a second codebook from a second-stage codebook set based on a first codebook to match the downlink short-term and / or narrow-band channel matrix; And

VI. Sending the index information of the second codebook to the base station, and multiplying the first codebook with the second codebook to obtain the target codebook

Lt; / RTI >

The _first- stage codebook set W ₁ and the second-stage codebook set W ₂ are

Generating a codebook matrix V based on the 2-antenna rank-1 DFT codebook c;

-; 및Determining a _first- stage codebook set W ₁ according to a codebook matrix V,

-; And

Determining a _second -stage codebook set W ₂ based on at least a column selection vector and inter-polarization topology information

/ RTI > is provided.

Advantageously, the codebook matrix V is:

이고

-;Selecting two orthogonal DFT vectors from a 2-antenna rank-1 DFT codebook c to produce a codebook matrix V,

ego

-;

이고

임 -, 코드북 행렬 V를 생성하도록 코드북 행렬 I에 대각 행렬 J를 좌측에서 곱하거나 우측에서 곱하는 단계 -

이고

는 범위 (0, 1)에서 양자화됨 -; 및We choose two orthogonal DFT vectors from a 2-antenna rank-1 DFT codebook c to produce a codebook matrix I,

ego

- multiplying the diagonal matrix J on the left or multiplying the diagonal matrix J on the codebook matrix I to generate a codebook matrix V,

ego

Is quantized in the range (0, 1); And

-Selecting a set of adjacent overlapping DFT vectors from a 2-antenna rank-1 DFT codebook c to produce a codebook matrix V,

-

Lt; / RTI >

Advantageously, the second-stage codebook set W ₂ is:

The following equation

About Rank 1

,

,

및

And

About Rank 2

,

,

은 1인 n-번째 원소를 제외하고 모든 다른 원소가 0인 2x1 선택 벡터를 나타내고,

은 코드북 행렬 V로부터 선택된 제1 열을 나타내며,

는 코드북 행렬 V로부터 선택된 제2 열을 나타냄 -;Determining a second set W ₂ based on the column select vector and the interleaved phase information of the first set W ₂ -

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from a codebook matrix V;

The following equation

About Rank 1

,

,

및

And

About Rank 2

,

,

은 1인 n-번째 원소를 제외하고 모든 다른 원소가 0인 2x1 선택 벡터를 나타내고,

은 코드북 행렬 V로부터 선택된 제1 열을 나타내며,

는 코드북 행렬 V로부터 선택된 제2 열을 나타내며,

는 범위 (0, 1)에서 양자화됨 -; 및Determining a second set W ₂ based on a column selection vector, polarization-to-phase phase information and polarization-to-polarization amplitude information,

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents the second column selected from the codebook matrix V,

Is quantized in the range (0, 1); And

The following equation

About Rank 1

,

,

; 및

; And

About Rank 2

,

,

은 1인 n-번째 원소를 제외하고 모든 다른 원소가 0인 4x1 선택 벡터를 나타내고,

은 코드북 행렬 V로부터 선택된 제1 열을 나타내며,

는 코드북 행렬 V로부터 선택된 제2 열을 나타내며,

은 코드북 행렬 V로부터 선택된 제3 열을 나타내고,

는 코드북 행렬 V로부터 선택된 제4 열을 나타내며,

는 범위 (0, 1)에서 양자화됨 -Determining a second set W ₂ based on a column selection vector, polarization-to-phase phase information and polarization-to-polarization amplitude information,

Represents a 4x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents the second column selected from the codebook matrix V,

Represents the third column selected from the codebook matrix V,

Represents the fourth column selected from the codebook matrix V,

Is quantized in the range (0, 1)

. ≪ / RTI >

Advantageously, step V:

Multiplying the first codebook with each codebook of the second-stage codebook set and selecting the second codebook from the second-stage codebook set based on the maximum capacity or minimum distance criterion.

According to the above embodiment, in an embodiment of the present invention, a method for determining a codebook in a base station of a multiple-input multiple-output communication system is provided, wherein the base station is comprised of four cross-polarized transmission antennas,

Receiving index information of a first codebook from a user equipment;

Selecting a first codebook from a first-stage codebook set according to index information of a first codebook;

Receiving index information of a second codebook from a user equipment;

Selecting a second codebook from the second-stage codebook set according to index information of the second codebook; And

Multiplying the first codebook with the second codebook to obtain the target codebook

Lt; / RTI >

The _first- stage codebook set W ₁ and the second-stage codebook set W ₂ are

Generating a codebook matrix V based on the 2-antenna rank-1 DFT codebook c;

-; 및Determining a _first- stage codebook set W ₁ according to a codebook matrix V,

-; And

Determining a _second -stage codebook set W ₂ based on at least a column selection vector and inter-polarization topology information

.

Each of the aspects of the present invention will become more apparent from the following description of specific embodiments.

The foregoing and other features of the invention will become more apparent upon review of the following detailed description of non-limiting embodiments with reference to the drawings.
1 is a flow diagram of a method for determining a codebook in a multiple-input multiple-output communication system in accordance with an embodiment of the present invention.
2 is a flow diagram of a method for determining a codebook in a multiple-input multiple-output communication system in accordance with another embodiment of the present invention.
In the drawings, the same or similar reference numerals denote the same or similar components.

In the following, we will present a detailed description of a two-stage codebook structure applicable to a 4Tx cross-polarized antenna configuration.

The set of two-stage codebooks can be defined as follows.

W ₁ is a _first- stage codebook set and W ₂ is a second-stage codebook set.

(1) Creation of the _first- stage codebook set W ₁

W ₁ represents the long-term and / or wide-band channel characteristics for each pair of antennas having the same polarization direction in a 4Tx cross-polarized antenna configuration and can be viewed in the block diagonal form below have.

로 구성된다.V has two eigenvectors for 2Tx MIMO channels with the same polarization direction within the 4Tx cross-polarized antenna configuration, i.e., with a dimension of 2x2

.

There are two methods for obtaining eigenvector information for matrix V. One is a downlink signaling indication and the other is an uplink CSI feedback.

는 동일한 편파 방향을 가진 각각의 안테나 쌍에 대한 업링크 및 다운링크 공분산 행렬들의 상호성(reciprocity)에 따라 기지국(eNB)에 의해 달성될 수 있다. 그다음에 eNB는 완전히 동일한 W₁ 정보를 eNB 측 및 UE 측에 대해 달성하기 위하여 다운링크 시그널링을 통해 교정된(calibrated) 고유벡터들 및 고유값을 사용자 장비(User Equipment; UE)에 통지한다. W₁의 고유벡터들 및 고유값은 업링크 및 다운링크 공분산 행렬들의 상호성에 기초하여 느린 변화 특성(slow variation property)을 갖고 장기(long periodicity)의 다운링크 시그널링 전송을 통하여 eNB에 의해 반-정적으로(semi-statically) 나타날 수 있는데, 그것은 다운링크 전송 오버헤드를 가능한 한 적게 차지할 수 있다. 따라서 이 옵션에서, 더 큰 코드북 세트는 W1 정확도를 개선시키기 위하여 공분산 행렬들 또는 그들의 고유벡터들을 양자화(quantize)하도록 사용될 수 있다.In the first option, the wideband eigenvectors such as v ₁ and v ₂ and the wideband eigenvalues

Can be achieved by the base station (eNB) according to the reciprocity of the uplink and downlink covariance matrices for each pair of antennas having the same polarization direction. The eNB then notifies User Equipment (UE) of eigenvectors and eigenvalues calibrated via downlink signaling to achieve completely the same W ₁ information for the eNB side and the UE side. The eigenvectors and eigenvalues of W _{1 have} a slow variation property based on the reciprocity of the uplink and downlink covariance matrices and are semi-static by the eNB over downlink signaling transmissions over long periodicity , Which may take up as little downlink transmission overhead as possible. Thus, in this option, a larger set of codebooks can be used to quantize covariance matrices or their eigenvectors to improve Wl accuracy.

In the second option, V may be defined as a two-column orthogonal 2Tx DFT codebook and may be selected and reported by the UE from a predefined set of codebooks.

For example, a 2-antenna DFT codebook with a rank of 1 may be designed as follows.

In the example, two orthogonal DFT vectors may be selected from the above-described codebook c to form a codebook matrix V below.

Thus, W ₁ can be seen as:

는 V로 도입될 수 있다. 구체적으로, 우선 두 직교 DFT 벡터는 아래의 코드북 행렬 I를 형성하기 위하여 전술한 코드북 c로부터 선택될 수 있다.Advantageously, non-constant modulus properties can be considered to reflect inter-polarization amplitude information, and as a result elements reflecting non-constant modulus properties

Lt; / RTI > Specifically, two orthogonal DFT vectors may first be selected from the above-described codebook c to form the following codebook matrix I:

에 의해 좌측에서 곱해지거나(left-multiplied) 또는 우측에서 곱해진다(right-multiplied).The above-described codebook matrix I is then multiplied by a diagonal matrix to generate a codebook matrix V,

Multiplied on the left by (left-multiplied) or right-multiplied by (right).

(좌측 곱셈); 및

(Left multiplication); And

(우측 곱셈).

(Right multiplication).

는 범위 (0, 1)에서 양자화된다.At this time

Is quantized in the range (0, 1).

In another example, a plurality of successive DFT vectors may be selected from the above-described codebook c to form a codebook matrix V. [ For example, a set of adjacent overlapped DFT vectors may be selected from the above-described codebook c to form a codebook matrix V. [

Thus, W ₁ can be seen as:

As will be understood, the size of the codebook set W ₁ in the first option described above can be set to be larger than the size of the codebook set W ₁ in the second option described above.

Advantageously, the eNB is able to semi-statically signal the selection of one of the two options described above in higher-layer signaling. If the selection of the first option is signaled in higher-layer signaling, the UE will directly use W ₁ in accordance with the downlink indication from the eNB; If the selection of the second option is signaled in the higher-layer signaling, the UE measures the downlink channel and reports W ₁ information on the uplink feedback channel. Otherwise, a default selection of W ₁ , such as from the most recent downlink indication or uplink feedback, may be used.

In summary, the _first- stage codebook set W ₁ can be defined as follows.

For the above-described first downlink signaling indication method:

For the above-described second uplink CSI feedback method:

V is formed of two orthogonal DFT vectors selected from the above-described codebook c:

V is formed of a set of adjacent overlapping DFT vectors selected from the above-described codebook c:

이다.The number of feedback bits for W ₁ is

to be.

The _first- stage codebook set W ₁ is the same for rank 1 and rank 2. The second-stage codebook set W ₂ is different for rank 1 and rank 2, and the _second -stage codebook set W ₂ can be obtained from the _first- stage codebook set W ₁ . How to obtain the _second -stage codebook set W ₂ will be described below.

(2) Creation of the second stage codebook set W ₂

W ₂ represents the short-term and / or subband channel characteristics of the 4Tx cross-polarized antenna. There are two factors that can be considered in a W ₂ design, such as column selection from the codebook matrix V of W ₁ and co-phasing hypothesis.

로 정의될 수 있고,

은 값 1을 가지는 n-번째 원소를 제외하고 모두 0을 갖는 2x1 열 선택 벡터이고,

은 코드북 행렬 V로부터 선택된 제1 열을 나타내며,

는 코드북 행렬 V로부터 선택된 제2 열을 나타낸다.The first factor considered for W ₂ design is thermal selection. A suitable DFT vector is selected from the codebook matrix V of W ₁ . For example, if column select vector Y

, ≪ / RTI >

Is a 2x1 column select vector having all zeros excluding the n-th element having the value 1,

Represents the first column selected from the codebook matrix V,

Represents the second column selected from the codebook matrix V. [

The second element to be considered for the W ₂ design is used to reflect the phase-to-polarization phase information, and can be designed similar to the DFT codebook of W ₁ and with different quantities and bits. The co-phased information can be viewed as follows.

In summary, the second stage codebook set W ₂ can be defined as follows according to different rank indication information.

For rank 1:

이다.At this time

to be.

및

일 수 있다.If the column selection is the same for Y ₁ and Y ₂ , one bit is sufficient to indicate the column selection. The number of feedback bits for W ₂ with rank 1 is

And

Lt; / RTI >

For rank 2:

이다.At this time

to be.

Y ₃ = Y ₁ and Y ₄ = Y ₂ ,

이고;

ego;

Y ₃ = Y ₂ and Y ₄ = Y ₁

이다.

to be.

이다.At this time

to be.

과

를 갖는다.The rank-2 codebook has the same number of feedback bits as the rank-1 codebook for W ₂

and

.

가 W₂에 도입될 수 있다.Advantageously, the non-constant modulus characteristic can be considered to reflect the polarization-to-polarization amplitude information, resulting in a third factor reflecting non-constant modulus characteristics

Can be introduced into W ₂ .

Then, for rank 1,

For rank 2,

는 범위 (0, 1)에서 양자화된다.

Is quantized in the range (0, 1).

If the codebook matrix V of W ₁ is formed of a set of adjacent overlapping DFT vectors selected from the codebook c described above:

는 값 1을 가진 n-번째 원소를 제외하고 모두 0인 4x1 열 선택 벡터인데, 그것은 행렬 V로부터의 n-번째 열 선택 벡터의 선택을 지시하고, 따라서 전체 4 개의 열 벡터들의 경우의 수

가 있다. Y₁ 및 Y₂는 이 4개의 열 벡터 중 임의의 2개로 선택될 수 있고, 따라서 전체 16개의 경우의 수가 있다.Column select vector

Is a 4x1 column select vector that is all zeros except for the nth element with a value of 1 which indicates the selection of the nth column select vector from the matrix V and thus the number of cases for all four column vectors

. Y ₁ and Y ₂ can be selected from any two of these four column vectors, and thus, there are a total of 16 cases.

For rank 1:

이다.At this time

to be.

For rank 2:

이다.At this time

to be.

The two-state codebook set W = W ₁ W ₂ of the present invention can be backward compatible with the Release 8 codebook. The 2-state codebook set can be considered an improved design of the Release 8 codebook.

A method for determining a codebook from a 2-state codebook set formed as above will be described below. The two-state codebook set is stored on the base station side and the user equipment side, respectively.

In one embodiment, with reference to FIG. 1, first, in step S11, the base station determines an uplink long-term and / or a wideband channel matrix according to a sounding signal from the user equipment.

In step S12 the next, and the uplink base station to match the long-term and / or wideband channel matrix selects a first codebook from the first-stage codebook set W ₁ W ₁ on the basis of the first-stage codebook set. For example, the base station may match uplink long-term and / or wide-band channels based on maximum capacity or minimum distance criteria.

In the next step S13, the base station sends index information of the determined first codebook to the user equipment.

Therefore, in S14, the user equipment selects a first codebook from the first-stage codebook set W ₁ according to the index information of the first codebook from the base station upon receipt of the index information.

Then, in step S15, the user equipment determines a downlink short-term and / or narrowband channel matrix according to reference information from the base station.

In the next step S16, the user equipment selects the downlink short-term and / or a second codebook from the second-stage codebook set W ₂ based on the selected first codebook that matches the narrow band channel matrix. For example, the user equipment may be multiplied with a first code book for second-stage codebook, each codebook in the set of W ₂ and the maximum capacity or based on a minimum distance based on the two-step to select a second code book from the code book set W ₂ .

Thus, in step S17, the user equipment sends index information of the second codebook to the base station and multiplies the first codebook with the second codebook to obtain the target codebook.

In step S18, the base station selects a second code book from the second-stage codebook set W ₂ according to the index information of the second code book from the user equipment upon receiving the index information.

In step S19, the base station multiplies the first codebook with the second codebook to obtain the target codebook.

In another embodiment, with reference to FIG. 2, first, in step S21, the user equipment determines a downlink long term and / or wide channel matrix according to reference information from a base station.

In step S22 the next, the user equipment selects a first codebook from W ₁ the first-stage codebook set to match the downlink long-term and / or wideband channel matrix. For example, the user equipment may match the downlink long-term and / or wide-band channel matrixes based on the maximum capacity or minimum distance criterion.

In the next step S23, the user equipment sends index information of the first codebook to the base station.

The base station selects the first codebook from the first-stage codebook set W ₁ according to the index information of the first codebook from the user equipment upon reception of the index information.

Then, in step S24, the user equipment determines the downlink short term and / or narrow channel matrix according to the reference information from the base station.

Then, at step 25, the user equipment selects a second codebook from the second-stage codebook set W ₂ based on the selected first codebook to match the downlink short-term and / or narrow channel matrix. For example, the user equipment may be multiplied with a first code book for second-stage codebook, each codebook in the set of W ₂ and the maximum capacity or based on a minimum distance based on the two-step to select a second code book from the code book set W ₂ .

In the next step S26, the user equipment sends the index information of the second codebook to the base station and multiplies the first codebook with the second codebook to obtain the target codebook.

The base station selects the second codebook from the second-stage codebook set W ₂ in accordance with the index information of the second codebook from the user equipment upon receiving the index information. The base station then multiplies the first codebook with the second codebook to obtain the target codebook.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof, Thus, the embodiments are to be understood in all respects as illustrative and not restrictive. Any reference signs in the claims should not be construed as limiting the scope of the invention. Moreover, to be explicit, the term " comprising "does not exclude other element (s) or step (s), and the term " a or an" The plurality of components described in the device claims may alternatively be implemented as a single component. The terms "first "," second ", and the like are for naming and do not suggest any particular order.

Claims (17)

A method of generating a two-stage codebook set,
The two-stage codebook set is applicable to a multi-input multi-output communication system in which a base station therein has four cross-polarized transmission antennas,
The two-stage codebook set includes a first-stage codebook set and a second-stage codebook set,
The method comprising:
a. Generating a codebook matrix V based on a 2-antenna rank-1 DFT codebook c;
b. Determining the _first- stage codebook set W ₁ according to the codebook matrix V,

-; And
c. Determining the _second stage codebook set W ₂ based on at least a column selection vector and inter-polarization phase information,
≪ / RTI > The method according to claim 1,
Wherein step a) comprises:
Selecting two orthogonal DFT vectors from the 2-antenna rank-1 DFT codebook c to generate the codebook matrix V,
Including the

ego

In method. The method according to claim 1,
Wherein step a) comprises:
Selecting two orthogonal DFT vectors from the 2-antenna rank-1 DFT codebook c to produce a codebook matrix I,

ego

-; And
(Left-multiplying) the right-multiplying the diagonal matrix J to the codebook matrix I to produce the codebook matrix V,

ego,

Is quantized in the range (0, 1)
/ RTI > The method according to claim 1,
Wherein step a) comprises:
Selecting a set of adjacent overlapping DFT vectors from the 2-antenna rank-1 DFT codebook c to produce the codebook matrix V,
Including the

In method. The method according to claim 1,
Step c) comprises:
The following equation
About Rank 1

,

And
About Rank 2

Determining the _second stage codebook set W ₂ based on the column selection vector and the inter-polarization phase information of
Lt; / RTI >

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from the codebook matrix V. The method according to claim 1,
Step c) comprises:
The following equation
About Rank 1

,

And
About Rank 2
,

Determining the second set W ₂ based on the column select vector, the inter-polarization phase information, and the polarization-to-
Lt; / RTI >

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from the codebook matrix V,

Is quantized in the range (0, 1). The method according to claim 1,
Step c) comprises:
The following equation
About Rank 1

,

And
About Rank 2

,

Determining the second set W ₂ based on the column select vector, the inter-polarization phase information, and the inter-polarization amplitude information of the second set W ₂
Lt; / RTI >

Represents a 4x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from the codebook matrix V,

Represents the third column selected from the codebook matrix V,

Represents the fourth column selected from the codebook matrix V,

Is quantized in the range (0, 1). A method for determining a codebook in a base station of a multiple input multiple output communication system,
The base station is composed of four cross-polarized transmission antennas,
The method comprising:
i. Determining an uplink long-term and / or a wideband channel matrix according to a sounding signal from the user equipment;
ii. Selecting a first codebook from the first-stage codebook set based on a first-stage codebook set to match the uplink long-term and / or wide-band channel matrix;
iii. Sending index information of the first codebook to the user equipment;
iv. Receiving index information of a second codebook from the user equipment;
v. Selecting the second codebook from the second-stage codebook set according to the index information of the second codebook; And
vi. Multiplying the first codebook with the second codebook to obtain a target codebook
Lt; / RTI >
The first-stage codebook set W ₁ and the second-stage codebook set W ₂ are:
Generating a codebook matrix V based on the 2-antenna rank-1 DFT codebook c;
Determining the _first- stage codebook set W ₁ according to the codebook matrix V,

-; And
Determining the _second -stage codebook set W ₂ based on at least a column selection vector and inter-polarization topology information
≪ / RTI > 9. The method of claim 8,
The codebook matrix V is:
Selecting two orthogonal DFT vectors from the 2-antenna rank-1 DFT codebook c to produce the codebook matrix V,

ego

-;
To select two orthogonal DFT vectors from the 2-antenna rank-1 DFT codebook c to produce a codebook matrix I,

ego

- multiplying the codebook matrix I by the left side or the right side by the diagonal matrix J to produce the codebook matrix V,

Lt;

Is quantized in the range (0, 1); And
Selecting a set of adjacent overlapping DFT vectors from the 2-antenna rank-1 DFT codebook c to produce the codebook matrix V,

-
≪ / RTI > 9. The method of claim 8,
The second-stage codebook set W ₂ includes:
The following equation
About Rank 1

,

And
About Rank 2

,

Determining the second set W ₂ based on the column select vector and the interleaved phase information of the second set W ₂ -

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from the codebook matrix V;
The following equation
About Rank 1

,

; And
About Rank 2

,

Determining the second set W ₂ based on the column select vector, the inter-polarization phase information and the inter-polarization amplitude information of the second set W ₂ ,

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from the codebook matrix V,

Is quantized in the range (0, 1); And
The following equation
About Rank 1

,

And
About Rank 2

,

Determining the second set W ₂ based on the column select vector, the inter-polarization phase information and the inter-polarization amplitude information of the second set W ₂ ,

Represents a 4x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from the codebook matrix V,

Represents the third column selected from the codebook matrix V,

Represents the fourth column selected from the codebook matrix V,

Is quantized in the range (0, 1)
≪ / RTI > CLAIMS What is claimed is: 1. A method for determining a codebook in a user equipment of a multiple-input multiple-
A. receiving index information of a first codebook from a base station;
B. selecting the first codebook from the first-stage codebook set according to the index information of the first codebook;
C. determining a downlink short and / or narrow channel matrix according to reference information from the base station;
D. selecting a second codebook from the second-stage codebook set based on the first codebook to match the downlink short-term and / or narrow-band channel matrix; And
E. sending index information of the second codebook to the base station, and multiplying the first codebook with the second codebook to obtain a target codebook
Lt; / RTI >
The first-stage codebook set W ₁ and the second-stage codebook set W ₂ are
Generating a codebook matrix V based on the 2-antenna rank-1 DFT codebook c;
Determining the _first- stage codebook set W ₁ according to the codebook matrix V,

-; And
Determining the _second -stage codebook set W ₂ based on at least a column selection vector and inter-polarization topology information
≪ / RTI > 12. The method of claim 11,
Step D:
Multiplying the first codebook by each codebook of the second-stage codebook set and calculating the second codebook from the second-stage codebook set based on a maximum capacity or minimum distance criterion Wherein the method further comprises: CLAIMS What is claimed is: 1. A method for determining a codebook in a user equipment of a multiple-input multiple-
I. determining a downlink long-term and / or wide-band channel matrix according to reference information from a base station;
II. Selecting a first codebook from a first-stage codebook set to match the downlink long-term and / or wide-band channel matrix;
III. Sending index information of the first codebook to the base station;
IV. Determining a downlink short-term and / or narrow-band channel matrix according to the reference information from the base station;
V. selecting a second codebook from the second-stage codebook set based on the first codebook to match the downlink short-term and / or narrow-band channel matrix; And
VI. Sending index information of the second codebook to the base station, and multiplying the first codebook with the second codebook to obtain a target codebook
Lt; / RTI >
The first-stage codebook set W ₁ and the second-stage codebook set W ₂ are
Generating a codebook matrix V based on the 2-antenna rank-1 DFT codebook c;
Determining the _first- stage codebook set W ₁ according to the codebook matrix V,

-; And
Determining the _second -stage codebook set W ₂ based on at least a column selection vector and inter-polarization topology information
Lt; / RTI > 14. The method of claim 13,
The codebook matrix V is:
Selecting two orthogonal DFT vectors from the 2-antenna rank-1 DFT codebook c to produce the codebook matrix V,

ego

-;
To select two orthogonal DFT vectors from the 2-antenna rank-1 DFT codebook c to produce a codebook matrix I,

ego

- multiplying the codebook matrix I by the left side or the right side by the diagonal matrix J to produce the codebook matrix V,

ego

Is quantized in the range (0, 1); And
Selecting a set of adjacent overlapping DFT vectors from the 2-antenna rank-1 DFT codebook c to produce the codebook matrix V,

-
≪ / RTI > 14. The method of claim 13,
The second-stage codebook set W ₂ includes:
The following equation
About Rank 1

,

And
About Rank 2

,

Determining the second set W ₂ based on the column select vector and the interleaved phase information of the second set W ₂ -

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from the codebook matrix V;
The following equation
About Rank 1

,

And
About Rank 2

,

Determining the second set W ₂ based on the column select vector, the inter-polarization phase information and the inter-polarization amplitude information of the second set W ₂ ,

Represents a 2x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from the codebook matrix V,

Is quantized in the range (0, 1); And
The following equation
About Rank 1

,

; And
About Rank 2

,

Determining the second set W ₂ based on the column select vector, the inter-polarization phase information and the inter-polarization amplitude information of the second set W ₂ ,

Represents a 4x1 selection vector in which all other elements are 0 except for the n-th element of 1,

Represents the first column selected from the codebook matrix V,

Represents a second column selected from the codebook matrix V,

Represents the third column selected from the codebook matrix V,

Represents the fourth column selected from the codebook matrix V,

Is quantized in the range (0, 1)
≪ / RTI > 14. The method of claim 13,
Step V:
Multiplying the first codebook with each codebook of the second-stage codebook set, and selecting the second codebook from the second-stage codebook set based on a maximum capacity or minimum distance criterion
/ RTI > A method for determining a codebook in a base station of a multiple input multiple output communication system,
The base station is composed of four cross-polarized transmission antennas,
The method
Receiving index information of a first codebook from a user equipment;
Selecting the first codebook from the first-stage codebook set according to the index information of the first codebook;
Receiving index information of a second codebook from the user equipment;
Selecting the second codebook from the second-stage codebook set according to the index information of the second codebook; And
Multiplying the first codebook with the second codebook to obtain a target codebook
Lt; / RTI >
The first-stage codebook set W ₁ and the second-stage codebook set W ₂ are
Generating a codebook matrix V based on the 2-antenna rank-1 DFT codebook c;
Determining the _first- stage codebook set W ₁ according to the codebook matrix V,

-; And
Determining the _second -stage codebook set W ₂ based on at least a column selection vector and inter-polarization topology information
≪ / RTI >

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